NL8602378A - ELECTRIC LAMP. - Google Patents

Description

.8 11,873 ίi: *

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N.V. Philips' Incandescent lamp factories in Eindhoven.

"Electric lamp" * -

The invention relates to an electric lamp provided with a lamp envelope and a plastic lamp shell which is connected at one end to the lamp envelope and which carries a lamp base at its other end. Such a lamp is known from US Pat. No. 4,383,200.

The known lamp is a compact one-sided dented low-pressure mercury vapor discharge lamp with a glass lamp envelope in which a gastight sealed hook-shaped fluorescent discharge tube is arranged. Such a lamp serves as an alternative to an incandescent lamp 10 for general lighting purposes. The lamp further contains an electric stabilization ballast and a starter which are partly included in the space bounded by a slightly conical plastic lamp shell.

The lamp shell of the said lamp is screwed to the underside of the lamp envelope, for which purpose the lamp envelope is provided with a screw thread or special mounting cams.

In British published patent application 2,154,057, an electrodeless low-pressure mercury vapor discharge lamp is described, wherein the glass balloon-shaped envelope of the lamp vessel is attached to a plastic lamp shell by means of a clamping connection.

The realization of the connection between the lamp shell and the lamp envelope during the manufacture of the lamps is time-consuming and relatively complicated, in particular in a mass manufacturing process in which the said lamps are manufactured.

The object of the invention is to provide a lamp in which a reliable and firm connection between the lamp envelope and the lamp shell is established in a simple manner during the manufacture of the lamp.

According to the invention, a lamp of the type mentioned in the preamble is characterized in that for the connection to the lamp shell the lamp envelope is provided on its side facing the lamp shell with a number of elongated protruding 8602378 PHN 11.873 2 plate-shaped members running substantially parallel to the lamp axis, which are inseparably received between ribs also extending substantially parallel to the lamp axis on the inner wall of the lamp shell.

The lamp according to the invention can be mass-produced in a simple manner. The said members are, for example, attached to the underside of the balloon-shaped lamp envelope by means of an adhesive (such as glue or kit). When the lamp envelope is attached to the lamp shell, the said members are pressed and anchored between the ribs, for instance by means of cooperating grooves in the members and the ribs, whereby locking in axial direction is obtained.

The said plate-shaped members are preferably designed as pairs of resilient metal barbs which are secured in plastic ribs. A reliable connection between the lamp shell and the lamp envelope is then obtained. In addition, a wide tolerance for differences in shape of the different casings and lamp shells is achieved during manufacture.

In a preferred embodiment, the plate-shaped members are part of an annular band which is mounted on an edge part of the lamp envelope facing the lamp shell. For example, this tape consists of metal and is attached to the outer wall of the casing with an adhesive. The band and the members are preferably die-cut as a whole.

The lamp according to the invention is, for example, designed as a compact fluorescent low-pressure mercury vapor discharge lamp or as an electrodeless low-pressure discharge lamp. Such lamps serve as an alternative to incandescent lamps for general lighting purposes. However, the invention can also be applied in certain types of incandescent lamps or high-pressure lamps.

The invention will be further elucidated with reference to a drawing. Herein shows

Fig. 1 shows an embodiment of an electrodeless low-pressure mercury discharge lamp according to the invention, partly in section 35 and partly in elevation, and FIG. 2 shows a detail of an embodiment of the connection between the lamp shell and the lamp envelope of the lamp according to 8802378 PHN 11.873 3 FIG. 1.

The lamp of Fig. 1 contains a glass lamp envelope 1 of a gastight sealed discharge vessel which is filled with a small amount of mercury and a rare gas (such as krypton). The discharge vessel is provided with a depression 2 in which a rod-shaped core 3 of ferrite is received. During operation of the lamp, a high-frequency electromagnetic field is generated in the discharge vessel by means of a winding 4 located around the core and an electrical supply unit connected thereto. Furthermore, the inner wall of the envelope 1 is provided with a luminescent layer 5 which converts the ultraviolet radiation generated in the discharge vessel into visible light. Suppression rings 12, 13 and 14 are present on the outside of the lamp envelope.

A plastic lamp shell 6 is attached to the lamp envelope 1. This lamp shell contains a cylindrical part (6a) and a conical part (6b) which carries an edison lamp base 7. The lamp envelope 1 is balloon-shaped and is provided on the side facing the lamp shell 6 with a circular upright edge part 1a (see fig. 2) on the outside of which a metal band 8 is attached by means of an adhesive, such as glue or a kit. . This belt is provided with a number of regularly spaced elongated projecting metal members 9 extending substantially parallel to the lamp axis AB, which are inseparably received between likewise substantially parallel to the longitudinal axis of the lamp ribs 10 and 11 which extend from the lamp. are present on the inside of the cylindrical part (6a) of the lamp shell 6.

In Fig. 2 the connection between the lamp envelope and the lamp shell is schematically shown in detail. The circular glass rim part (1a) of the balloon-shaped envelope is only shown to a very limited extent. The metal band 8 is provided with a number of members (9), one of which is visible. These plate-shaped elongated metal members (9) are punched integrally with the belt.

The band 8 is provided on its side facing the lamp envelope with an inwardly staggered flanged edge 8a. Between this edge and the adjacent glass wall (1a) there is some space which is filled up with a cured sealant compound 17 by means of which the tape 8 is adhered to the glass lamp envelope. The presence of the rim 8a ensures that during the manufacture of the lamp the still 8602378 PHN 11.873 4 soft kit does not leave the said space. The kit consists of a mixture of shellac, phenol formaldehyde resin, hexamethylene tetraamine, silicone resin, rosin, calcium carbonate and ethanol.

The plate-shaped members are formed as pairs of resilient lips 15 and 16. Each lip is formed near its free end on its side edge facing the respective rib (10, 11) into a sharp point (such as 15a and 16a) with which the lip in the the relevant plastic rib is anchored.

When the lamp is mounted, the glass lamp envelope is first provided on its underside with the said band with plate-shaped members, which protrude slightly below the plane through the bottom edge. The lamp shell is then placed in the direction of the longitudinal axis of the lamp against the underside of the envelope. The resilient lips are herein pushed between the substantially parallel ribs 15. The sharp barbed lips, in this case, are fixed in the plastic, which preferably consists of a thermoplastic plastic such as polycarbonate.

Γη the space limited by the lamp shell contains a high-frequency power supply.

In a practical embodiment, the diameter of the spherical glass discharge vessel is approximately 70 mm. The luminescent layer contains a mixture of two phosphors, namely green luminescent terbium-activated cerium magnesium aluminate and red luminescent with trivalent europium-activated ytrrium oxide. Between the luminescent layer and the glass wall, a transparent conductive layer of fluorine-doped tin oxide is present. Measurements were made with such a lamp and a luminous flux of 900 lumens at a power supplied to the lamp of approximately 13 W.

3002378

Claims (7)

1. Electric lamp provided with a lamp envelope and a plastic lamp shell which is connected at one end to the lamp envelope and which carries a lamp base at its other end, characterized in that, in connection with the lamp shell, the lamp envelope is turned towards the lamp shell side is provided with a number of spaced apart elongated protruding plate-like members extending parallel to the lamp axis, which are inseparably received between ribs likewise substantially parallel to the lamp axis on the inner wall of the lamp shell. Electric lamp according to claim 1, characterized in that the members are designed as pairs of resilient metal barbs which are secured in plastic ribs. 3 ·. Electric lamp according to claim 1 or 2, characterized in that the plate-shaped members are part of an annular band which is mounted on an edge part of the lamp envelope facing the lamp shell. Electric lamp according to claim 3, characterized in that the members and the belt are punched as one unit. Electric lamp according to claim 3 or 4, characterized in that the tape is attached to the outside of the lamp envelope by means of an adhesive. Electric lamp according to claim 3 or 4, characterized in that the band on its side facing the lamp envelope is provided with an inwardly offset edge. Electric lamp according to claim 1, 2, 3, 4, 5 or 6, characterized in that the members are formed as pairs of resilient lips, each lip near its free end on its side edge facing the respective rib to a sharp point is formed, with which the lip is anchored in the rib. 8602378